Skin Cancer after Organ Transplantation, Jan 1, 2009
Human papillomaviruses (HPV) are small double-stranded DNA viruses that predominantly form hyperp... more Human papillomaviruses (HPV) are small double-stranded DNA viruses that predominantly form hyperproliferative lesions in mucosal and cutaneous epithelial tissues and are strictly epitheliotropic. More than 120 different types have been characterised based on DNA ...
UVB induced DNA damage is the major aetiological agent in NMSC development, but mounting evidence... more UVB induced DNA damage is the major aetiological agent in NMSC development, but mounting evidence suggests a role for human papillomaviruses (HPV) from genus beta, including HPV 5 and HPV 8, in the development of NMSC on sun exposed body sites. We have previously shown that UVB activates Bak, an apoptogenic mitochondrial factor that, following an apoptotic stimulus, undergoes a conformational change that leads to pore formation in the mitochondrial membrane that releases apoptotic factors. The HPV E6 protein effectively inhibits UVB-induced apoptosis and targets Bak for proteolytic degradation. We have now identified the regions of the HPV5 E6 that are required to mediate Bak proteolysis and contribute toward the antiapoptotic activity of the protein. Interestingly, while wild-type HPV5 E6 does not bind or target p53 for proteolysis, we have isolated specific HPV5 E6 mutants that switch target specificity from Bak to p53 in a p53 codon 72 isoform-dependent manner. Furthermore, we demonstrate that the ability of wild-type HPV5 E6 to target Bak or specific E6 mutants to target p53 for proteolysis is not dependent on the E6-AP ubiquitin ligase.
Epithelial tumorigenesis has been linked to AKT up-regulation. Human papillomaviruses (HPV) cause... more Epithelial tumorigenesis has been linked to AKT up-regulation. Human papillomaviruses (HPV) cause anogenital cancers and anogenital HPV infection up-regulates AKT activity. Mounting evidence points to a role for cutaneous HPVs as etiologic factors in skin tumorigenesis. High-risk cutaneous β HPVs have been linked to carcinogenesis in immunosuppressed patients, and high-risk cutaneous HPV8 genes enhance tumorigenesis in transgenic mice. We find that, in contrast to anogenital HPVs, cutaneous HPV8 early genes down-regulate epidermal AKT activity by down-regulating AKT1 isoform levels. This down-regulation occurs before papilloma formation or tumorigenesis and leads to cutaneous differentiation changes that may weaken the epidermal squame for viral release. We find that, in viral warts (papillomas) and HPV gene-induced epidermal tumors, AKT activitycan be activated focally by up-regulation and phosphorylation of the AKT2 isoform. In squamous cell carcinomas (SCC), AKT1 down-regulation is also common, consistent with a viral influence, whereas AKT2 up-regulation is widespread. Activation of up-regulated AKT2 by serine phosphorylation associates with high-grade tumors. Our data suggest that AKT2 up-regulation is characteristic of SCC and that coincident AKT2 activation through serine phosphorylation correlates with malignancy. These findings highlight differences between the effects of anogenital and cutaneous HPV on epithelial AKT activity and furthermore show that AKT isoforms can behave differently during epidermal tumorigenesis. These findings also suggest AKT2 as a possible therapeutic tumor target in SCC.
The molecular mechanisms that underlie the development of squamous cell skin cancers (SSC) are po... more The molecular mechanisms that underlie the development of squamous cell skin cancers (SSC) are poorly understood. We have used oligonucleotide microarrays to compare the differences in cellular gene expression between a series of keratinocyte cell that mimic disease progression with the aim of identifying genes that may potentially contribute towards squamous cell carcinoma (SCC) progression in vivo, and in particular to identify markers that may serve as potential therapeutic targets for SCC treatment. Gene expression differences were corroborated by polymerase chain reaction and Western blotting. We identified Axl, a receptor tyrosine kinase with transforming potential that has also been shown to have a role in cell survival, adhesion and chemotaxis, was upregulated in vitro in SCC-derived cells compared to premalignant cells. Extending the investigation to tumour biopsies showed that the Axl protein was overexpressed in vivo in a series of SCCs.
The human papillomavirus (HPV) type 18 E6 gene cooperates with activated Ha-ras to immortalize pr... more The human papillomavirus (HPV) type 18 E6 gene cooperates with activated Ha-ras to immortalize primary mouse cells in culture. Using a plasmid where HPV18 E6 expression is regulated by the glucocorticoid inducible MMTV LTR, we have generated immortalized cell lines in which the continued expression of E6 was necessary for maintenance of the transformed phenotype. In the absence of exogenously added hormone these cells were found to arrest in G0/G1. Furthermore, we demonstrate that the effects of E6 were essentially p53 independent and therefore define a novel function by which E6 is able to modulate cell proliferation. In addition, when the E6 dependent cells were maintained under conditions of prolonged growth arrest by the removal of E6, revertant cells were isolated which were no longer dependent on E6 expression for continued proliferation. These revertant cells were found to have acquired a mutation in the cellular gene p53, suggesting that certain p53 mutations are dominant over an E6 requirement in this assay.
Skin Cancer after Organ Transplantation, Jan 1, 2009
Human papillomaviruses (HPV) are small double-stranded DNA viruses that predominantly form hyperp... more Human papillomaviruses (HPV) are small double-stranded DNA viruses that predominantly form hyperproliferative lesions in mucosal and cutaneous epithelial tissues and are strictly epitheliotropic. More than 120 different types have been characterised based on DNA ...
UVB induced DNA damage is the major aetiological agent in NMSC development, but mounting evidence... more UVB induced DNA damage is the major aetiological agent in NMSC development, but mounting evidence suggests a role for human papillomaviruses (HPV) from genus beta, including HPV 5 and HPV 8, in the development of NMSC on sun exposed body sites. We have previously shown that UVB activates Bak, an apoptogenic mitochondrial factor that, following an apoptotic stimulus, undergoes a conformational change that leads to pore formation in the mitochondrial membrane that releases apoptotic factors. The HPV E6 protein effectively inhibits UVB-induced apoptosis and targets Bak for proteolytic degradation. We have now identified the regions of the HPV5 E6 that are required to mediate Bak proteolysis and contribute toward the antiapoptotic activity of the protein. Interestingly, while wild-type HPV5 E6 does not bind or target p53 for proteolysis, we have isolated specific HPV5 E6 mutants that switch target specificity from Bak to p53 in a p53 codon 72 isoform-dependent manner. Furthermore, we demonstrate that the ability of wild-type HPV5 E6 to target Bak or specific E6 mutants to target p53 for proteolysis is not dependent on the E6-AP ubiquitin ligase.
Epithelial tumorigenesis has been linked to AKT up-regulation. Human papillomaviruses (HPV) cause... more Epithelial tumorigenesis has been linked to AKT up-regulation. Human papillomaviruses (HPV) cause anogenital cancers and anogenital HPV infection up-regulates AKT activity. Mounting evidence points to a role for cutaneous HPVs as etiologic factors in skin tumorigenesis. High-risk cutaneous β HPVs have been linked to carcinogenesis in immunosuppressed patients, and high-risk cutaneous HPV8 genes enhance tumorigenesis in transgenic mice. We find that, in contrast to anogenital HPVs, cutaneous HPV8 early genes down-regulate epidermal AKT activity by down-regulating AKT1 isoform levels. This down-regulation occurs before papilloma formation or tumorigenesis and leads to cutaneous differentiation changes that may weaken the epidermal squame for viral release. We find that, in viral warts (papillomas) and HPV gene-induced epidermal tumors, AKT activitycan be activated focally by up-regulation and phosphorylation of the AKT2 isoform. In squamous cell carcinomas (SCC), AKT1 down-regulation is also common, consistent with a viral influence, whereas AKT2 up-regulation is widespread. Activation of up-regulated AKT2 by serine phosphorylation associates with high-grade tumors. Our data suggest that AKT2 up-regulation is characteristic of SCC and that coincident AKT2 activation through serine phosphorylation correlates with malignancy. These findings highlight differences between the effects of anogenital and cutaneous HPV on epithelial AKT activity and furthermore show that AKT isoforms can behave differently during epidermal tumorigenesis. These findings also suggest AKT2 as a possible therapeutic tumor target in SCC.
The molecular mechanisms that underlie the development of squamous cell skin cancers (SSC) are po... more The molecular mechanisms that underlie the development of squamous cell skin cancers (SSC) are poorly understood. We have used oligonucleotide microarrays to compare the differences in cellular gene expression between a series of keratinocyte cell that mimic disease progression with the aim of identifying genes that may potentially contribute towards squamous cell carcinoma (SCC) progression in vivo, and in particular to identify markers that may serve as potential therapeutic targets for SCC treatment. Gene expression differences were corroborated by polymerase chain reaction and Western blotting. We identified Axl, a receptor tyrosine kinase with transforming potential that has also been shown to have a role in cell survival, adhesion and chemotaxis, was upregulated in vitro in SCC-derived cells compared to premalignant cells. Extending the investigation to tumour biopsies showed that the Axl protein was overexpressed in vivo in a series of SCCs.
The human papillomavirus (HPV) type 18 E6 gene cooperates with activated Ha-ras to immortalize pr... more The human papillomavirus (HPV) type 18 E6 gene cooperates with activated Ha-ras to immortalize primary mouse cells in culture. Using a plasmid where HPV18 E6 expression is regulated by the glucocorticoid inducible MMTV LTR, we have generated immortalized cell lines in which the continued expression of E6 was necessary for maintenance of the transformed phenotype. In the absence of exogenously added hormone these cells were found to arrest in G0/G1. Furthermore, we demonstrate that the effects of E6 were essentially p53 independent and therefore define a novel function by which E6 is able to modulate cell proliferation. In addition, when the E6 dependent cells were maintained under conditions of prolonged growth arrest by the removal of E6, revertant cells were isolated which were no longer dependent on E6 expression for continued proliferation. These revertant cells were found to have acquired a mutation in the cellular gene p53, suggesting that certain p53 mutations are dominant over an E6 requirement in this assay.
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Papers by Alan Storey